Litcius/Paper detail

Imaging drug delivery to the lungs: Methods and applications in oncology

Francis Man, Jie Tang, Magda Swedrowska, Ben Forbes, Rafael T. M. de Rosales

2022Advanced Drug Delivery Reviews22 citationsDOIOpen Access PDF

Abstract

Direct delivery to the lung via inhalation is arguably one of the most logical approaches to treat lung cancer using drugs. However, despite significant efforts and investment in this area, this strategy has not progressed in clinical trials. Imaging drug delivery is a powerful tool to understand and develop novel drug delivery strategies. In this review we focus on imaging studies of drug delivery by the inhalation route, to provide a broad overview of the field to date and attempt to better understand the complexities of this route of administration and the significant barriers that it faces, as well as its advantages. We start with a discussion of the specific challenges for drug delivery to the lung via inhalation. We focus on the barriers that have prevented progress of this approach in oncology, as well as the most recent developments in this area. This is followed by a comprehensive overview of the different imaging modalities that are relevant to lung drug delivery, including nuclear imaging, X-ray imaging, magnetic resonance imaging, optical imaging and mass spectrometry imaging. For each of these modalities, examples from the literature where these techniques have been explored are provided. Finally the different applications of these technologies in oncology are discussed, focusing separately on small molecules and nanomedicines. We hope that this comprehensive review will be informative to the field and will guide the future preclinical and clinical development of this promising drug delivery strategy to maximise its therapeutic potential.

Topics & Concepts

ModalitiesDrug deliveryMedicineMedical physicsMagnetic resonance imagingNanotechnologyRadiologyMaterials scienceSociologySocial scienceInhalation and Respiratory Drug DeliveryAtomic and Subatomic Physics ResearchNuclear Physics and Applications